ライフサイエンスコーパス: buccal

1 tes were not statistically different between buccal (11.3%) and blood (7.0%, p = 0.18) samples; howev

2 Seven-hundred eight (708) buccal and 142 blood DNA samples were analyzed for labor

3 ease in serum zinc concentration, changes in buccal and blood gene transcripts related to zinc homeos

4 typing characteristics were compared between buccal and blood samples collected in the population-bas

5 determination of microcirculatory indices in buccal and cerebral areas.

6 elate changes in the macrocirculation to the buccal and cerebral microcirculations during hemorrhage

7 lost a mean of <1 mm alveolar height on the buccal and lingual aspects and <1.5 mm of total ridge wi

8 ut width loss was evenly distributed between buccal and lingual aspects when RP was performed.

9 ncluding change in ridge width and change in buccal and lingual ridge height.

10 t was shown that, due to shrinkage stresses, buccal and lingual surfaces pulled inward after restorat

11 its, lingual grooves, proximal surfaces, and buccal and lingual surfaces.

12 tion to determine cuspal deflection from the buccal and lingual volume change/area.

13 aces and, among coronal surfaces, on smooth (buccal and lingual), occlusal, and proximal surfaces.

14 Moreover, the buccal and mesial regions of the cortical bone concentra

15 Epidemiologic information, serum, and buccal and oropharyngeal swabs were collected.

16 al bone were measured at the mesial, distal, buccal, and lingual regions around the implant for each

17 e find that the anterior proboscis ends in a buccal apparatus containing teeth, the eyes project late

18 ridge width reduction was experienced on the buccal aspect in sites without RP, but width loss was ev

19 plaque samples were obtained from the mesio-buccal aspect of every tooth.

20 radental cyst that typically presents on the buccal aspect of mandibular permanent first molars in ch

21 CS, fenestration defects were created at the buccal aspect of the first mandibular molar of all anima

22 ral fenestration defects were created at the buccal aspect of the first mandibular molar.

23 coronal direction and extending from the mid-buccal aspect of the first molar to the mid-buccal aspec

24 olar sites allowed to heal without RP on the buccal aspect of the socket (RP: -1.12 +/- 1.60 mm versu

25 -buccal aspect of the first molar to the mid-buccal aspect of the third molar in the mesio-distal dir

26 al evaluation of a recurrent swelling on the buccal aspect of tooth #12.

27 to show less vertical bone resorption on the buccal aspect than the flapless technique.

28 ertical reduction was most pronounced on the buccal aspect, 0.7 to 1.0 mm.

29 ity of ridge width loss was localized to the buccal aspect.

30 (PD) and depth of osseous dehiscence at the buccal aspect.

31 a- and subgingival plaque samples from mesio-buccal aspects of premolars and molars exhibiting probin

32 anical analysis was performed on lingual and buccal aspects of the attached gingiva, alveolar mucosa,

33 GCF samples were obtained from the mesio-buccal aspects of two teeth.

34 litude, with the highest values found in the buccal attached gingiva.

35 Although average buccal attachment loss is greater on ST-site teeth (P =

36 identified as: 1) the sum of the maximum mid-buccal (B) and mesio-buccal (MB) measures, which reflect

37 n (FME) of six sites (disto-buccal [DB], mid-buccal [B], mesio-buccal [MB], disto-lingual [DL], mid-l

38 The buccal bifurcation cyst (BBC) is a paradental cyst that

39 </=135-fold reduced blood loss, and improved buccal bleeding times decreased to 4 min for up to 5 y a

40 iscence defect (6 x 3 mm) was created on the buccal bone and immediate implants were placed in distal

41 ment of intraosseous defects associated with buccal bone dehiscence accessed by buccal SFA may suppor

42 ontal intraosseous defects associated with a buccal bone dehiscence resulted in a limited post-surger

43 Individuals with at least 5 mm of buccal bone dehiscence were selected for a flapless surg

44 ly, CBCT analysis showed that with >/=50% of buccal bone destruction, rhBMP-2/ACS was able to regener

45 Regarding PM2, buccal bone in the dehiscence defects lacking periosteum

46 Buccal bone remodeling is significantly more extensive a

47 uate a new technique for treating dehiscence buccal bone sites (Class II) with immediate implant and

48 Immediate implant placement at dehiscence buccal bone sites using flapless surgery combined with x

49 acrificed and jaw segments were assessed for buccal bone thickness (BBT), buccal bone volume (BBV), v

50 The mean buccal bone thickness (P <0.05) and MBL (P <0.05) was co

51 There was no significant difference in the buccal bone thickness, MBL, and BIC among the groups in

52 Buccal bone thickness, soft tissue peri-implant paramete

53 re assessed for buccal bone thickness (BBT), buccal bone volume (BBV), vertical bone height (VBH), an

54 Buccal bone wall height was measured by computed tomogra

55 ft blocks provided complete formation of the buccal bone wall up to the implant shoulder.

56 ccurring predominantly at the expense of the buccal bone.

57 opted treatment modality, with the change in buccal (bREC) and interdental (iREC) gingival recession

58 DNA from buccal brush samples is being used for high-throughput a

59 muscle responsible for pulling food into the buccal cavity during swallowing is the I3 muscle, whose

60 both amino acids and insulin were ionised at buccal cavity pH and able to form stable ion pairs which

61 wide, thereby exposing a highly distensible buccal cavity to the flow and facilitating its inflation

62 to stiffen and control the inflation of the buccal cavity; in doing so the engulfed water mass is ac

63 d the logarithm of RTL, adjusting for age at buccal cell collection, state of residence, applicator l

64 rature were inversely associated with RTL in buccal cell DNA among cancer-free pesticide applicators.

65 the disease-associated variation observed in buccal cell DNA is mirrored in adult brain tissue obtain

66 ome-wide patterns of DNA methylation in twin buccal cell DNA using the Infinium HumanMethylation450 B

67 Methylation patterns were analysed in buccal cell DNA with the Illumina HumanMethylation 450K

68 of the eight patients showed an increase in buccal cell FXN levels, and fold induction was significa

69 zation (TEL-FISH) coupled with 3D imaging of buccal cell nuclei], providing high-resolution data amen

70 Bio-sampling was randomised to blood spot, buccal cell or no request.

71 We examined buccal cell TL in relation to lifetime use of 48 pestici

72 r lifetime pesticides use is associated with buccal cell TL.

73 amples using either blood (N=45, P=0.001) or buccal cells (N=255, P=0.004).

74 samples with low DNA yield, including blood, buccal cells and urine.

75 CS-sorted CD19(+) cells and paired CD3(+) or buccal cells from 255 patients with CLL for acquired gen

76 total peripheral-blood leukocytes (PBL) and buccal cells from a series of monozygotic twin pairs.

77 Buccal cells from patients, mutation carriers, and contr

78 ersion and pyrosequencing assays on DNA from buccal cells provided by 377 participants of the Childre

79 Buccal cells were collected from 1999 to 2006.

80 In additional studies, buccal cells were grown in vitro and incubated with SB21

81 d blood cells, mononuclear cells, platelets, buccal cells, adipose tissue, plasma phosphatidylcholine

82 For whole blood and buccal cells, analysing FRDA patients and carriers toget

83 the recovery of DNA from human blood, semen, buccal cells, breastmilk, and earwax in addition to low-

84 Further replication of the aDMRs in buccal cells, representing a tissue that originates from

85 urons are controlled by a well characterized buccal central pattern generator (CPG).

86 Two buccal-cerebral projection interneurons, B34 and B63, wh

87 head with a pair of simple eyes, a terminal buccal chamber containing a radial array of sclerotized

88 tudy is to evaluate the clinical response of buccal Class II furcation defects to open-flap debrideme

89 Seventy-two patients with mandibular buccal Class II furcation defects were randomized and ca

90 Ninety patients with mandibular buccal Class II furcation defects were randomly allocate

91 al parameters of healing of human mandibular buccal Class II furcation defects.

92 At the most mid-buccal computerized tomography slice of each tooth, othe

93 f ridge width and preserved or augmented the buccal contour.

94 m the IAN to the: 1) alveolar crest (CN); 2) buccal cortical plate (BN); 3) lingual cortical plate (L

95 The average buccal cortical plate thickness in dentate mandibles was

96 the distance of the external surface of the buccal cortical plate to the inferior alveolar canal in

97 rneurons, B34 and B63, which are part of the buccal CPG and mediate radula protraction, monosynaptica

98 Moreover, when the multifunctional buccal CPG generates multiple forms of motor programs du

99 motoneurons C15/16/17 are controlled by the buccal CPG or by a previously postulated cerebral CPG.

100 -mouth examination (FME) of six sites (disto-buccal [DB], mid-buccal [B], mesio-buccal [MB], disto-li

101 Buccal degree II furcation defects were surgically creat

102 constructive treatment of surgically created buccal, degree II furcation defects in mini-pigs.

103 cal approach to insert xenograft blocks into buccal dehiscence defects as well as the gap between imp

104 one used in flapless extraction sites with a buccal dehiscence is able to regenerate lost buccal plat

105 g extraction of a hopeless tooth with >/=50% buccal dehiscence were enrolled.

106 also significantly (P <0.05) less remaining buccal dehiscence, both clinically (6.81 versus 10.0 mm)

107 e (CS) alone in extraction sites with >/=50% buccal dehiscence.

108 deep intraosseous defects associated with a buccal dehiscence.

109 occurrence, average and maximum lingual and buccal depth of space between tooth and bone, periosteal

110 occurrence, average and maximum lingual and buccal depth of space between tooth and bone, periosteal

111 an subjects living in Northern Italy donated buccal DNA and completed diurnal preference, sleep quali

112 namic model (DM) call rates were lower among buccal DNA samples (p < 0.0001).

113 io of ds/total DNA <34%, which distinguished buccal DNA samples likely to fail high-throughput genoty

114 atory predictors of genotyping failure among buccal DNA samples, and to evaluate the successfully gen

115 n (%5mC) was analysed with pyrosequencing on buccal DNA.

116 ress in the in vitro and in vivo modeling of buccal drug delivery and provide a critical review of cu

117 med PWS analysis from microscopically normal buccal epithelial brushings from smokers with and withou

118 bulb and a C. aurantium leaf and from human buccal epithelial cell populations was performed using t

119 ripheral blood mononuclear cells (PMBCs) and buccal epithelial cells (BECs), the two most accessible

120 5 were A. actinomycetemcomitans positive for buccal epithelial cells [BECs] and teeth, 5 were A. acti

121 nificantly reduced E. coli adhesion to fresh buccal epithelial cells by up to 80% (p<0.001).

122 dothelial cells, and freshly collected human buccal epithelial cells in suspension.

123 Ex vivo, adhesion of E. coli to fresh human buccal epithelial cells was measured in the presence or

124 helps guide decisions on the suitability of buccal epithelial or peripheral mononuclear cells for th

125 asive method to obtain high-quality DNA from buccal epithelial-cells (BEC) of premature infants for g

126 ord blood at delivery, in fetal lung, and in buccal epithelium and blood during childhood.

127 etic/epigenetic data which suggests that the buccal epithelium is altered in lung field carcinogenesi

128 es with materials such as connective tissue, buccal fat pads, and resorbable collagen membranes have

129 granules (PTG) in the treatment of Class II buccal furcation defects in mandibular molars in humans.

130 hirty-nine patients with mandibular Class II buccal furcation defects were randomized to beta-tricalc

131 d in 10 patients with 10 mandibular Class II buccal furcation defects.

132 A buccal furcation invasion was discovered on #12.

133 of CT scan and clinical probing was found at buccal furcation sites in the mandible, with a kappa-coe

134 dible, with a kappa-coefficient of 0.52, and buccal furcation sites in the maxilla, kappa = 0.38.

135 ABA)-immunoreactive (GABA-ir) neurons in the buccal ganglia of six sea slug species (Mollusca, Gastro

136 pil in the Nudipleura were restricted to the buccal ganglia, commissures, and connectives.

137 motoneurons are located in the cerebral and buccal ganglia, respectively, and radula motoneurons are

138 n cultures of the pleural ganglion (PVC) and buccal ganglion S cluster (BSC) in 3 egg cohorts at sexu

139 uation revealed generalized melanosis of the buccal gingiva and a lack of keratinized tissue around i

140 Weighted mean difference of mid-buccal gingival level (WDBGL), papilla index score (WDPI

141 Mid-buccal gingival level (WDBGL, 0.07 mm; 95% confidence in

142 Mid-buccal gingival level, interproximal gingival level, fac

143 ttempt to limit the post-surgery increase in buccal gingival recession (bREC), effect of a connective

144 ) assess the long-term outcomes of untreated buccal gingival recession (GR) defects and the associate

145 tients with bilateral Miller's Class I or II buccal gingival recessions >/=2.0 mm in canines or premo

146 Thirty-six patients with Miller Class I buccal GR associated with NCCLs completed the follow-up.

147 on factor Osr2 was expressed in a lingual-to-buccal gradient pattern surrounding the developing mouse

148 -we established a macaque model of localized buccal inflammation.

149 ATRP is present in the higher-order cerebral-buccal interneuron (CBI) CBI-4, but not in CBI-2.

150 tive responses to ingestive inputs [Cerebral-Buccal Interneuron (CBI-2)].

151 the cholinergic command-like neuron cerebral buccal interneuron 2.

152 In Aplysia, stimulation of cerebral-buccal interneuron-2 (CBI-2), which activates the feedin

153 istometric and microtomographic analyses (at buccal, interproximal, and furcation sites) demonstrated

154 e important role of Evc for establishing the buccal-lingual axis of the developing first molar is als

155 Likewise, buccal-lingual width of alveolar ridge as well as thickn

156 ted teeth (T1) and their contralateral, both buccal-lingually in the alveolar ridge (P = 0.007) and i

157 th of keratinized mucosa measured at the mid-buccal location per implant at baseline and 1-year visit

158 The mean CAL at the mid-buccal location per implant was 0.8 mm at baseline and 0

159 a gradual increase of the 5-HT level in the buccal mass during development.

160 behaving animals or in vitro in a suspended buccal mass preparation, we demonstrated that the freque

161 The buccal mass was characterized by a single-component high

162 sum of the maximum mid-buccal (B) and mesio-buccal (MB) measures, which reflects the worst case of b

163 es (disto-buccal [DB], mid-buccal [B], mesio-buccal [MB], disto-lingual [DL], mid-lingual, and mesio-

164 Buccal microcirculation decreased after bleeding but was

165 d in hemorrhagic shock in which systemic and buccal microcirculatory flow are reduced.

166 A unique buccal microwear pattern that is found in Homo antecesso

167 of dietary abrasiveness as evidenced by the buccal microwear patterns on the teeth of the Sima del E

168 t stage (stage of early status epilepticus), buccal midazolam has become an important out-of-hospital

169 roplasmy transmission conducted on blood and buccal mtDNA of 39 healthy mother-child pairs of Europea

170 n blood (15%), urinary epithelium (75%), and buccal mucosa (58%).

171 om LL explants compared to explants from the buccal mucosa (BM), HP, and transition zone of the lower

172 were compared, to optimize cellular yield in buccal mucosa and cornea.

173 to have tongue malignancy (82%) followed by buccal mucosa and gingivobuccal sulcus malignancy (18%).

174 The buccal mucosa appeared as an intermediate ecological nic

175 s, we have investigated the potential of the buccal mucosa as an alternative delivery route for ShK b

176 ion protein Cx43 were markedly diminished in buccal mucosa cells from arrhythmogenic cardiomyopathy p

177 Buccal mucosa cells from arrhythmogenic cardiomyopathy p

178 esmosomal protein desmoplakin was reduced in buccal mucosa cells from patients with mutations in DSP,

179 mosomal protein plakophilin-1 was reduced in buccal mucosa cells in patients with PKP2 mutations but

180 potential surrogate tissue, we characterized buccal mucosa cells.

181 The delivery of drugs through the buccal mucosa has attracted much research interest over

182 This study demonstrated that the buccal mucosa is a promising administration route for th

183 of selegiline, which is absorbed through the buccal mucosa producing higher plasma levels of selegili

184 c verrucous papules on the lips, tongue, and buccal mucosa refractory to multiple excisions.

185 f the attached gingiva, alveolar mucosa, and buccal mucosa to gain insight into human tissue performa

186 the m.14487T>C mutation in his blood, urine, buccal mucosa, and hair follicle DNA samples, while the

187 in plaque, others in keratinized gingiva or buccal mucosa, and some oligotypes were characteristic o

188 ening sites included the forehead, nostrils, buccal mucosa, axilla, antecubital fossa, groin, and toe

189 including decreases in microcirculations of buccal mucosa, cerebral microvascular flow was preserved

190 ups based on similar community compositions: buccal mucosa, keratinized gingiva, hard palate; saliva,

191 th the best sensitivity were the leg and the buccal mucosa, respectively (82.6% and 52.2%; P = 0.003)

192 f fluorescent 5-Fam-ShK to untreated porcine buccal mucosa, there was no detectable peptide in the re

193 ocytes, urinary epithelial cells (UECs), and buccal mucosa.

194 tion occurred across inflamed but not normal buccal mucosa.

195 ne were initiated at three sites through the buccal mucosa: 1) 6 mm apical to the cemento-enamel junc

196 unfixed methods applied to exfoliated oral (buccal) mucosa cells.

197 and restorative interventions on implant mid-buccal mucosal level.

198 studies demonstrated significantly enhanced buccal mucosal retention of the peptide (measured by muc

199 le-exome sequencing of 5 tumors and a normal buccal mucosal sample from a patient with MHIBCC was per

200 ed by differences in SFV gag sequences, from buccal mucosal specimens overlapped with those from bloo

201 OSCC often affects upper and lower gingiva, buccal mucous membrane, the retromolar triangle and the

202 The serotonergic innervation of the buccal musculature responsible for feeding (radula protr

203 anchaea, we detected a few GABA-ir fibers in buccal nerves that innervate feeding muscles.

204 identification of most motor neurons in the buccal network of Aplysia at low, nontoxic Mn(2+) concen

205 d a colonoscopy from 1998 to 2007, donated a buccal or blood sample, and completed a structured quest

206 n of a lesion was presence of sinus tract at buccal or facial abscess of apical portion of implant, a

207 ccess to periodontal defects from either the buccal or oral aspect only, leaving the interproximal su

208 uncultured agents mostly originated from the buccal or sinusal floras (P < 10(-2)) and were found in

209 iched, taxonomically assigned species are of buccal origin, suggesting an invasion of the gut from th

210 eceived the same socket graft procedure plus buccal overlay cancellous xenograft (overlay group).

211 a socket graft to the same treatment plus a buccal overlay graft, both with a polylactide membrane,

212 traction-induced bone loss (BL) was noted on buccal, palatal, and interproximal height (P <0.05) and

213 of this study is to evaluate the effects of buccal-palatal bone width on the presence of the interpr

214 safe and effective permeation enhancers for buccal peptide delivery.

215 es were more likely to cavitate, followed by buccal pits, lingual grooves, proximal surfaces, and buc

216 l implant collar and the bony surface on the buccal plate (I-BP).

217 12 weeks postoperatively for dimensional and buccal plate analyses.

218 oach; 4) bone grafts to fill the gap between buccal plate and fixture; 5) connective tissue grafts; a

219 the distance between implant surface and the buccal plate is <4 mm, the combination of internal and e

220 The thin buccal plate of the extraction socket was preserved usin

221 antly (P <0.05) better in regard to clinical buccal plate regeneration (4.75 versus 1.85 mm), clinica

222 h measurements, vertical height changes, and buccal plate regeneration.

223 tal bone width (P = 0.002) with preoperative buccal plate thickness (BPT) was observed.

224 nt correlation was found between the initial buccal plate thickness and the loss of vertical ridge he

225 A secondary objective is to compare mean buccal plate thickness between thick and thin biotypes a

226 When the probe was visible, mean buccal plate thickness tended to be smaller by 0.212 mm

227 For the secondary objective, mean buccal plate thickness was compared between sites in whi

228 Buccal plate thickness was measured (n = 66 teeth) by co

229 te characteristics, e.g., tissue biotype and buccal plate thickness.

230 A thicker buccal plate was associated with less ridge loss in the

231 was able to regenerate a portion of the lost buccal plate, maintain theoretical ridge dimensions, and

232 buccal dehiscence is able to regenerate lost buccal plate, maintain theoretical ridge dimensions, and

233 ion alveolar bone loss, mostly affecting the buccal plate, occurs despite regenerative procedures.

234 d a tendency to be associated with a thinner buccal plate.

235 One type of interneuron, the Pleuro-Buccal (PlB), is an extrinsic modulatory neuron of the f

236 tion reference manual toothbrush (MT) on mid-buccal preexisting GR (PreGR) during 12 months.

237 Our results offer proof of concept that buccal PWS may potentially herald a minimally intrusive

238 Average buccal RD on ST-site teeth did not differ from that on t

239 ositions of one patient demonstrated 2 mm of buccal recession after approximately 46 months in functi

240 udy demonstrates the possibility of treating buccal recessions with gingival unit grafts as an altern

241 ere was a higher stress concentration on the buccal region in comparison to all other regions under o

242 variety of pharmaceutical compounds via the buccal route.

243 We identified a buccal sample characteristic, a ratio of ds/total DNA <3

244 Given residential address and buccal sample collection date, we estimated 7-day, 1-mon

245 Exons 4, 5 and 8 in DNA from blood or buccal samples (130 autosomal recessive and simplex RP p

246 the 661 methylated genes from two studies of buccal samples (N = 1,002).

247 in the Children's Health Study who provided buccal samples and had undergone Feno measurement on the

248 was extracted from the model foods and human buccal samples by GIDAGEN Multi-fast DNA isolation kit.

249 subset of placentas, cord blood samples, and buccal samples collected during the NCT00632476 trial fo

250 rt tandem repeat DNA profiles from reference buccal samples is described and is suitable for the proc

251 e quality of final genotyping resulting from buccal samples is somewhat lower, but compares favorably

252 nd controls have different sample types, but buccal samples provide comparable results to blood sampl

253 tranded to total DNA (ds/total ratio) in the buccal samples was the only laboratory characteristic pr

254 bset of clones in DNA obtained from blood or buccal samples.

255 s from 28 studies originating from blood and buccal samples.

256 ting 74 intraosseous defects accessed with a buccal SFA and treated with different modalities were se

257 epth reduction, adjunctive use of a CTG to a buccal SFA in the regenerative treatment of periodontal

258 ated with buccal bone dehiscence accessed by buccal SFA may support the stability of the gingival pro

259 ed trial is to assess the effectiveness of a buccal SFA used for the surgical debridement of deep int

260 s with an intraosseous defect treated with a buccal SFA with (SFA+CTG group; n = 15) or without (SFA

261 After buccal SFA, greater post-surgery increase in bREC must b

262 many patients had limited bone volume in the buccal shelf or ascending ramus.

263 ly noted around the alveolar bone of molars (buccal side) and incisors.

264 tive tissue graft (CTG) when combined with a buccal single flap approach (SFA) in the regenerative tr

265 ndary outcomes were changes of GR at all mid-buccal sites (with or without PreGR), changes in percent

266 surement approaches for distal, lingual, and buccal sites but not mesial.

267 elomere length in genomic DNA extracted from buccal smears from 63 patients with BD, 74 first-degree

268 index and the apico-coronal location of mid-buccal soft tissue positions were recorded.

269 Fenestration defects were created at the buccal surface of the distal root of the mandibular firs

270 They are most commonly found at the buccal surfaces of mandibular molars.

271 The plaque scores on buccal surfaces of the DTSG showed an additional slight

272 n clinical venipuncture whole blood (WB) and buccal swab (BS) specimens submitted to a field bioconta

273 firmed by the transmission of infectivity in buccal swab extracts to Tg338 mice, illustrating the lik

274 early demonstrate that prions are present in buccal swab samples from sheep with a VRQ/VRQ PRNP genot

275 We analyzed buccal swab samples obtained from preclinical scrapie-in

276 Buccal swab samples were collected on Whatman FTA cards

277 Buccal swab samples were collected on Whatman FTA cards

278 rmed simultaneously on DNA obtained from the buccal swabs and blood from the same patient.

279 PrP(Sc) was present in buccal swabs from a large proportion of sheep with PRNP

280 Prions were detected in buccal swabs from scrapie-exposed sheep of genotypes lin

281 quences of transcriptionally active SFV from buccal swabs obtained from the same animals.

282 The level of SFV RNA in buccal swabs varied greatly between macaques, with incre

283 the significance of orally available prions, buccal swabs were taken from sheep with a range of PRNP

284 f breast skin tissue, breast skin swabs, and buccal swabs.

285 can be collected and detected by using oral (buccal) swabs.

286 A once-daily miconazole 50 mg mucoadhesive buccal tablet (MBT) is a novel delivery system with pote

287 al routes: oral tablets, sublingual tablets, buccal tablets, sublingual spray, transdermal ointment,

288 ncy differences from HapMap were smaller for buccal than blood samples, and both sample types demonst

289 lithium disilicate crowns, the latter with a buccal thin veneer (BTV) of 0.5 mm, were fabricated and

290 sessing the levels of n-3 PUFAs in blood and buccal tissues of children and adolescents with ADHD.

291 the osphradium, the cephalic tentacles, the buccal tissues, and the foot, whereas NOS expression was

292 n oral mucosa, especially for sublingual and buccal tissues.

293 y, the response consistently disappears in a buccal to lingual direction.

294 branes with or without 10-mg SIM were placed buccal to the mandibular first molars (M1).

295 l for treatment approaches in patients where buccal tooth movement (expansion) is planned in the ante

296 ed using a split-mouth design, with half the buccal tooth surfaces coated with serum and the other ha

297 (25.6% vs. 25.7%, p = 0.006) were lower for buccal versus blood DNA samples, respectively, but absol

298 ng, group A showed a slight decrease in mean buccal volume, whereas group B had an increase in volume

299 Buccal wall height at T1 was not significantly different

300 lly in the alveolar ridge (P = 0.007) and in buccal wall thickness (P = 0.003).

301 th of alveolar ridge as well as thickness of buccal wall was compared with the contralateral tooth.